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Dunwoody Mechanical Engineering
เข้าร่วมเมื่อ 3 ก.พ. 2017
MENG4211 Problem 16 1
HVAC calculating cooling load using Transfer Function Method. Problem 16.1 from Kuehn, Ramsey, and Threlkeld Thermal Environmental Engineering 3rd edition.
มุมมอง: 21
วีดีโอ
ENGR1221 HMI PLC Integration
มุมมอง 187 หลายเดือนก่อน
Integrating a Studio 5000 Logix file and Viewer file to communicate between the PLC and HMI.
ENGR1221 HMI Programming
มุมมอง 177 หลายเดือนก่อน
Programming Rockwell Allen-Bradley PLC and HMI using Studio 5000 Logix and Panel View.
ENGR1221 HMI Overview
มุมมอง 157 หลายเดือนก่อน
Lecture slides for Human Machine Interfaces using PLCs.
MENG4211 HVACR Instantaneous Cooling Load CLTD method
มุมมอง 1027 หลายเดือนก่อน
Use CLTD method to calculate instantaneous cooling load for 4 walls. This is from Thermal Environmental Engineering 3rd Edition by Kuehn, Ramsey, and Threlkeld
Solidworks Triangle Plate and Import to ANSYS
มุมมอง 111ปีที่แล้ว
This is the creation of the triangle plate in Solidworks with import to ANSYS Workbench and conversion to a surface body within DesignModeler. This needs to be a neutral (non-SolidWorks native) file for the import with the student license.
ANSYS DesignModeler Triangle Plate
มุมมอง 236ปีที่แล้ว
This is the creation of the triangle plate using DesignModeler in ANSYS Workbench from Finite Element Simulations with ANSYS Workbench 2022 by Huei-Huang Lee. It includes creating the 2-D surface body for use in the analysis.
ANSYS 2 D Analysis of Triangle Plate
มุมมอง 93ปีที่แล้ว
Triangular plate 2-D analysis in ANSYS Workbench/Mechanical from Finite Element Simulations with ANSYS Workbench 2022 by Huei-Huang Lee. This is just the first part before we make use of symmetry and reduce the mesh size.
Heat Transfer Boiling
มุมมอง 583 ปีที่แล้ว
A demonstration video for MENG3250 Heat Transfer on nucleate boiling and natural convection.
MENG3250 Heat Transfer Problem 5.42 Walkthrough
มุมมอง 333 ปีที่แล้ว
Bergman Fundamentals of Heat Transfer 8th transient conduction problem walkthrough using Interactive Heat Transfer.
MENG3250 Heat Transfer Problem 3 24
มุมมอง 413 ปีที่แล้ว
Solution video for Bergman & Lavine Fundamentals of Heat Transfer problem 3.24. This is a 1-D conduction problem of a composite wall with contact resistances.
MENG3250 Heat Transfer Bergman Problem 13 74
มุมมอง 3434 ปีที่แล้ว
Radiation heat transfer problem with a reradiating surface. By simplifying the reradiating surface as some equivalent resistances in our thermal circuit we can solve the problem as a two surface enclosure.
MENG3250 Heat Transfer Bergman Problem 12.20
มุมมอง 454 ปีที่แล้ว
Radiation problem finding total emissive power of the sun from a known heat flux. Finding surface temperatures of black surfaces using total emissive power. Using Wien's Law to calculate the wavelength associated with the peak emissive power of a black surface.
MENG2240 Mechanics of Materials Hibbeler Problem 9-67
มุมมอง 5434 ปีที่แล้ว
Internal loads with stress transformation using Mohr's circle from Hibbeler Mechanics of Materials.
MENG2240 Mechanics of Materials Hibbeler Problem 9-54
มุมมอง 2K4 ปีที่แล้ว
MENG2240 Mechanics of Materials Hibbeler Problem 9-54
MENG2240 Mechanics of Materials Hibbeler Problem 9-23
มุมมอง 6814 ปีที่แล้ว
MENG2240 Mechanics of Materials Hibbeler Problem 9-23
MENG2240 Mechanics of Materials Hibbeler Fundamental Problem F9 4
มุมมอง 8984 ปีที่แล้ว
MENG2240 Mechanics of Materials Hibbeler Fundamental Problem F9 4
MENG2240 Mechanics of Materials Hibbeler Problem 8 23
มุมมอง 4474 ปีที่แล้ว
MENG2240 Mechanics of Materials Hibbeler Problem 8 23
MENG2240 Mechanics of Materials Hibbeler Problemn 8 13
มุมมอง 1204 ปีที่แล้ว
MENG2240 Mechanics of Materials Hibbeler Problemn 8 13
MENG3250 Heat Transfer Bergman Problem 9.75
มุมมอง 354 ปีที่แล้ว
MENG3250 Heat Transfer Bergman Problem 9.75
MENG2240 Mechanics of Materials Problem 12 101
มุมมอง 1534 ปีที่แล้ว
MENG2240 Mechanics of Materials Problem 12 101
MENG3250 Heat Transfer Problem 7.85 (A&B)
มุมมอง 224 ปีที่แล้ว
MENG3250 Heat Transfer Problem 7.85 (A&B)
MENG 1230 Statics Quiz 3 Solution Fall 2019
มุมมอง 1525 ปีที่แล้ว
MENG 1230 Statics Quiz 3 Solution Fall 2019
MENG 1230 Statics Quiz 4 Fall 2019 Solution
มุมมอง 1795 ปีที่แล้ว
MENG 1230 Statics Quiz 4 Fall 2019 Solution
Super helpful, thank you!
4:36 if i put this on my calculator, its equal to 11,6. Why you have exactly the double?
❤❤❤❤❤❤❤❤❤❤❤❤❤
Thanks a lot
that was good only tutorial i could find that explains how to import geometry from cad for 2d stress analysis. Thank you so much.
What units were the ICL values in? BTU/hour?
Thank you
Moment at the wall?
you were wrong about centroid 3
yes it's 16.5
k value for BC should be 0-4sin45? No?
Well explained
Really appreciate you going through this problem, but your audio is a bit wonky. It was a bit tough to hear what you were saying.
thanks
Hi, I found this relatively useful because I was completely lost when understanding how to find the unit vector along x with relation to x’ and y’. I am still a little confused as to why we specifically use cos(30) and sin(30) specifically, especially sin(30) for the j direction of x rather than, for example, cos(30)
This one had me stumped, glad I went looking for an answer, thank you
Blur
this is SO helpful, thank you so much!!!
What book did you get this from?
11.25 How it's coming?
Thank you for the video, this save me. greetings from México!
may i know why we must minus t with 0.75 .... why we cannot add 0.75, because as i can see the brake was applied after 0.75 in which we can conclude car A will decelerate later then car B
Good quality mic and solutions. Thank you!
Very Clearly explain !!! thanks
Why is your moment at A Force E in the J axis?
It's position vector (from A to E) is in the plus i direction. The direction of the force is in the -k direction. i X k is -j, since it was -k direction for the force it makes it positive j for the moment about A due to the force at E. You can also use the right-hand rule to visualize the moment. Point your fingers from A to E, curl them in the direction of the force (down), and your thumb will point in the direction of the moment (in this case, the positive j direction)
Great lecture!
Thanks, Alexandros!
Who dis?
what happened to the negative of M1??? clockwise shouldnt be negative?
Ricardo Santos, good catch! It should be a negative moment about point A since all the weights are located to the right of Point A and are acting downward they all create negative moments about A. I also should have units of kip-ft and not kip only.
I liked how you outlined the steps of the problem before hand, like a plan to know what was coming. Thanks for the extra help!
during the Moment calculations why do you copy the i column again?
It was the way I was taught so you don't have to remember to put the negative sign in front of the j term. You can formulate the cross product either the normal way (putting the negative in front of the j term) or by copying the i and j columns to the right.
1:18 "Back to A for a moment here we have...uh, no pun intended" was the most sly joke I've heard in a while, good job Jonathan :D
I'm glad someone else appreciates my quirky sense of humor!
deng wow